Key Concepts of the J2ME Architecture in Java

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23 Key Concepts of the J2ME Architecture
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While connected consumer devices such as cell phones, pagers, personal organizers, and TV set-top boxes have many things in common, they are also extremely diverse in form, function, and features Information appliances tend to be special-purpose, limited-function devices To address this diversity, an essential requirement for the J2ME architecture is not only small size but also modularity and customizability
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In general, serving the information appliance market calls for a large measure of flexibility in how computing technology and applications are deployed This flexibility is required because of the large range of existing device types and hardware configurations,
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the different usage models employed by the devices (key operated, stylus operated, voice operated),
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constantly improving device technology,
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the diverse range of existing applications and features, and
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the need for applications and capabilities to change and grow, often in unforeseen ways, in order to accommodate the future needs of the consumer
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The J2ME architecture is intended to be modular and scalable so that it can support the kinds of flexible deployment demanded by the consumer and embedded markets To enable this, the J2ME environment provides a range of Java Virtual Machine technologies, each optimized for the different processor types and memory footprints commonly found in the consumer and embedded marketplace
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For low-end, resource-limited consumer products, the J2ME environment supports minimal configurations of the Java Virtual Machine and Java libraries that embody just the essential capabilities of each kind of device As device manufacturers develop new features in their devices or service providers develop new and exciting applications, these minimal configurations can be expanded with additional libraries that address the needs of a particular market segment To support this kind of customizability and extensibility, three essential concepts are defined by the J2ME architecture: Configuration A J2ME configuration defines a minimum platform for a "horizontal" category or grouping of devices, each with similar requirements on total memory budget and processing power A configuration defines the Java language and virtual machine features and minimum class libraries that a device manufacturer or a content provider can expect to be available on all devices of the same category
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Profile A J2ME profile is layered on top of (and thus extends) a configuration A profile addresses the
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24 Evolution of the J2ME Platform
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After the successful completion of the CLDC and MIDP standardization efforts, a number of additional J2ME standardization efforts have been launched to complement the functionality provided by the core standards Most of these additional efforts define optional packages that can be deployed on top of MIDP These efforts are summarized in Section 242, "Optional Packages for the Wireless Market" below In addition, there are a number of more fundamental, core standardization efforts that are summarized in Section 241, "Core J2ME Standardization Efforts"
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241 Core J2ME Standardization Efforts
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There are a number of standardization activities that have an important role in defining the overall J2ME architecture These efforts can be viewed as "umbrella" activities that specify the ground rules for a number of standardization activities or provide additional instructions, recommendations, and clarifications for binding together the existing J2ME standards: JSR 68: J2ME Platform Specification
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JSR 185: Java Technology for Wireless Industry JSR 68: J2ME Platform Specification
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This specification defines the "ground rules" for the J2ME platform architecture and J2ME standardization activities It formalizes the fundamental concepts behind J2ME, such as the notions of a configuration and profile, and defines how new J2ME APIs can be formed by subsetting existing APIs from the Java 2 Platform, Standard Edition (J2SE) JSR 185: Java Technology for the Wireless Industry (JTWI)
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This specification defines how various technologies associated with MIDP work together to form a complete handset solution for the wireless services industry The specification provides an exposition of the overall architecture of the wireless client software stack, including a description of the following aspects: Which optional packages fit with which profiles
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